Tag archives: lasers

Biophysics in Baltimore: the T-shirt that does what it says on the tin.

By Susan Curtis in Baltimore, US

I’m in Baltimore this week for the 59th annual meeting of the Biophysical Society. The field of biophysics has grown rapidly in recent years as physics-based techniques have opened up new ways to study and understand biological processes, but with my limited knowledge of biology I was nervous that I would feel a little out of my depth.

The first talk of the “New and Notable” symposium helped to allay my fears. Michelle Wang is a physicist at Cornell University in the US who exploits optical techniques to trap and manipulate biomolecules. While established methods can only trap a single biomolecule at a time, Wang and her colleagues have pioneered the use of nanophotonic structures that can trap multiple biomolecules in a standing wave created within an optical waveguide.

“Our optical-trapping innovation reduces bench-top optics to a small device on a chip,” Wang told physicsworld.com when the team first reported their so-called nanophotonic standing-wave array trap last year. Since then, Wang and her colleagues have been working to integrate fluorescent markers with the nanophotonic trap to track the position of individual biomolecules, and have also been experimenting with optical waveguide materials other than silicon to improve performance and enable new applications.

Celebrating IYL 2015 with a special free-to-read digital edition of Physics World.

By Matin Durrani

The International Year of Light (IYL 2015), which officially launches today at the headquarters of the UN Educational, Scientific and Cultural Organization (UNESCO) in Paris, is a brilliant initiative, but if you’re wondering how to find out more about the science and applications of light, then I’ve got the perfect place for you to start.

That’s because Physics World magazine is launching today a great, free-to-read digital edition containing 10 of our very best feature articles on the science and applications of light.

Elsewhere in the issue, you can find out from Joel England, a physicist at Stanford University in the US, about the new photonic research that could see particle accelerators shrunk to the scale of microchips.

Meanwhile, the huge potential of the photonics sector in general is underlined in our keynote interview with the chief executive of Jenoptik, Michael Mertin, who is also president of the European Union’s Photonics21 consortium, which seeks to unify the European photonics community and advises the European Commission on photonics research, development and innovation needs.